9.3- Fluid mechanics and projectile motion

Question 1

What is fluid mechanics

Answer 1

study of the forces acting on a body travelling through the air/ water

Question 2

Name the issues air resistance and drag pose against an athletes body

Answer 2

air resistance and drag act against the motion of a body
-place an increased psychological demand
-can lead to early fatigue and poor performance

Question 3

Name the 4 main factors that affect the
magnitude of air resistance and drag on a body

Answer 3

-velocity -> greater the velocity -> greater the force of air resistance/drag opposing their motion

-frontal cross -> low crouched psotion of a downhill skier reduces air resistance & drag

-streamlining and shape -> more aerodynamic the shape of a body/ equipment -> lower the air resistance/ drag

-surface characteristics -> e.g. increased smoothness -> lycra swimsuits reduce air resistance

Question 4

How does velocity affect magnitude of air resistance and drag

Answer 4

-greater the velocity the greater the air resistance or drag

Question 5

Name 3 sports that are affected by air resistance and drag due to their high velocities

Answer 5

-track cycling
-speed skating
-freestyle swimming

Question 6

How does frontal cross affect magnitude of air resistance and drag

Answer 6

larger the frontal cross, the larger the air resistance or drag

Question 7

Name 2 sports that are affected by air resistance and drag due to their large frontal cross

Answer 7

-track cycling
-downhill skiing

Question 8

How does streamlining and shape affect magnitude of air resistance and drag

Answer 8

more streamlined/ aerodynamic the shape of the body in motion- lower the air resistance or drag

Question 9

What is aerofoil

Answer 9

streamlined shape with curved upper surface and flat lower surface designed to give an additional lift force to a body

Question 10

What is streamlining

Answer 10

creating of smooth air flow around aerodynamic shape

-the more aerodynamic the shape of a body the lower the air resistance

Question 11

How does surface charcteristics affect magnitude of air resistance and drag

Answer 11

smoother the surface the lower the air resistance and drag

Question 12

Give examples of how downjill skiers battle air resistance to maximise performance

Answer 12

-minimise frontal cross –> low crouch position

-wear tear-drop-shape helmets –> streamlined shape

-wear super silky lycra suits –> smooth surface

Question 13

Give examples of how track cyclists battle air resistance to maximise performance

Answer 13

-lightweight bike with aerdoynamic features –> disc wheels

-aerodynamic riding position -> shoulders forward

-aerodynamic helmets

-tight fitting lycra skin suits- smooth socks pulled over shoes

Question 14

What is projectile motion

Answer 14

movement of a body through the air following curved flight path under force of gravity

Question 15

What is a projectile

Answer 15

body launched into air and subjected to weight and air resistance forces

Question 16

Give 2 examples of the 2 types of projectiles

Answer 16

-athlete (high jumper)
-equipment thrown, hit, kicked (javelin, tennis ball)

Question 17

What occurs when a projectile is in flight

Answer 17

projectiles follow a flight path through the air

-flight path from start - finish shows overall distance travelled

Question 18

What graph can be used to show the flight path a projectile takes

Answer 18

graph of height against horizontal distance travelled

Question 19

Name the 4 factors that affect the distance travelled by a projectile

Answer 19

-speed of release -> greater speed of projectile, further it will travel

-angle of release -> 45 degrees -> optimal angle to maximise horizontal distance

-height of release -> 45 degrees -> optimal angle if release height and landing height are equal
-where release height is ^ than landing height, optimal angle is less than 45 degrees

-aerodynamic factors (Bernoullli and Magnus) ->

Question 20

How is the horizontal distance travelled by a projectile affected by the speed of release

Answer 20

(newtons 2nd law)- greater the force applied to projectile - greater the change in momentum - further projectile accelerates into air

-greater the outgoing speed of the projectile, further it will travel

Question 21

How is the horizontal distance travlled by a projectile affected by the angle of release

Answer 21

-90 degrees- projectile will accelerate vertically upwards and come straight back down- travelling 0m

-45 degrees- optimal angle to maximise horizontal distance

-60/ 75 degrees- projectile reaches peak height too quickly- rapidly returns to ground

-30 degrees- projectile doesnt achieve sufficient height to maximise flight time

Question 22

How is the horizontal distance travelled by a projectile affected by the height of release

Answer 22

-45 degrees -> optimal angle of release

-where release height is above landing height- optimal angle of release- less than 45 degrees as projectile already has increased flight time due to increased height of release

-where release height is below landing height- optimal angle of release is more than 45 degrees as projectile needs increased flight time to overcome obstacle

Question 23

What is the drag

Answer 23

force that opposes the direction of motion of a body through water

Question 24

What is a projectile

Answer 24

body that is launched into the air losing contact with the ground surface, such as a discus

Question 25

one factor that affects horiozntal distance travlled by a projectile

Answer 25

-speed of release - greater speed of release- will be thrown further

-height of release

-angle of release

Question 26

What is parabolic

Answer 26

uniform curve symmetrical about its highest point

Question 27

What is a parabolic flight path and when does it occur

Answer 27

flight path symmetrical about its highest point caused by dominant force of weight on a projectile

-occurs if weight is dominant force & air resistance is small

Question 28

Give a sporting example of a parabolic flight path

Answer 28

shot put

-has high mass, travels through air at low velocity with small front cross-sectional area -> making air resistance minimal

Question 29

What is a non-parabolic flight path and when does it occur

Answer 29

a flight path asymmetrical about its highest point caused by dominant force of air resistance on a projectile

-occurs if air resistance is dominant force and weight is very small

Question 30

Give a sporting example of a non- parabolic flight path

Answer 30

badminton shuttle

-has low mass, travels at high velocities with uneven surface -> creates air resitance

Question 31

Explain the free body diagram of a badminton shuttle in the start, mid and end of flight phases

Answer 31

-start: AR is much larger than W -> as velocity of shuttle = high as it leaves racket head

-mid: size of AR force has decreased as velocity of shuttle has reduced -> size of AR force causes shuttle to decelerate

-end: AR force = small, velocity of shuttle has slowed -> W force is larger than AR -> shuttle falling vertically -> non-parabolic flight

Question 32

Name the 3 phases of motion within a flight path

Answer 32

-start of flight

-mid flight

-end of flight

Question 33

What is a parallelogram of forces

Answer 33

diagram of the object showing the forces acting on a projctile in flight

-> e.g. air resistance (direction and size)
weight (direction and size)

Question 34

Describe the 3 steps you would take to draw a parallelogram of forces

Answer 34

-draw free body diagram showing weight and air resistance

-add broken parallel lines to weight and air resitance arrows to create a parallelogram

-draw diagonal line from origin of weight and air resistance (centre of mass of projectile) to opposite corner of parallelogram with arrow labelled ‘resultant force’

Question 35

What is an aerofoil

Answer 35

streamlined shape with curved upper surface & flat lower surface

-> designed to give additional lift force to body

Question 36

What is the resultant force

Answer 36

it shows the acceleration of a projectile and the direction in which the acceleration occurs

-also shows flight path

Question 37

How do you know through looking at the resultant force if the flight path is parabolic or non-parabolic

Answer 37

parabolic -> if resultant force = closer to weight arrow -> weight = more dominant -> parabolic flight path

non-parabolic -> if resultant force = closer to air resistance -> AR = more dominant -> non-parabolic flight path

Question 38

Name characteristics of an aerofoil and how this is beneficial

Answer 38

-has a curved upper surface, forcing air flow to travel further distance -> moving at higher velocity

-has flat underneath surface -> air travelling at shorter distance at a lower velocity

-above the curved surface -> low-pressure zone is created

-below the flat underneath surface -> high-pressure zone is created

Question 39

What is Bernoullis principle in simple terms

Answer 39

higher the velocity of air flow, the lower the surrounding pressure

Question 40

How does an aerofoil shape give an additional lift force to a body according to Bernoullis principle

Answer 40

-curved upper shape -> air flow travels further -> moves higher velocity -> low pressure zones created

-flat underneath -> air travels shorter -> moves at lower velocity -> high pressure zone created

THEREFORE:
-as velocity increases, pressure decreases

-as fluids move from area of high pressure -> low pressure -> pressure gradient forms -> creating additional lift force

-lift force ^ time projectile hangs in air -> ^ flight path, horiziotal distance -> ^ results

Question 41

What is lift force

Answer 41

additional force created by pressure gradient forming on opposing surfaces of an aerofoil moving through a fluid

Question 42

What is angle of attack

Answer 42

most favourable angle of release for projectile to optimise lift force

Question 43

Give an example of a sport which adopts Bernoullis principle

Answer 43

ski jumper

Question 44

Explain using a sporting example Bernoullis downward lift force principle

Answer 44

-front wing funnels air down through narrow space underneath cars chassis

-soiler acts as an inverted aerofoil -> forces air underneath to travel further distance

-this ^ air velocity unerneath car -> creating areas of low pressure

-pressure gradient is formed; downward lift force = created

-results in ^ grip & friction around corners at high speeds

Question 45

How is spin created

Answer 45

created by applying an external force outside centre of mass

Question 46

Name the 4 types of spin, explain the force applied and the result of this force

Answer 46

topspin -> eccentric force applied above COM, projectile spins downwards around transverse axis

backspin -> eccentric force applied below COM, projectile spins upwards around transverse axis

sidespin hook -> eccentric force applied right of COM, projectile spins left around longitudinal axis

sidespin slice -> eccentric force applied left of COM, projectile spins right around longitudinal axis

Question 47

What is a magnus force

Answer 47

force created from a pressure gradient on opposing surfaces of a spinning body moving through the air

Question 48

What magnus force does topspin create and how does this effect its flightpath

Answer 48

topspin creates downward magnus force

-> shortening flight path

Question 49

What magnus force does backspin create and how does this effect its flightpath

Answer 49

backspin creates upward magnus force

-> lengthening flight path

Question 50

What magnus force does sidespin rotation create and how does this effect its flightpath

Answer 50

sidespin rotation creates magnus force to the right and left

-> swerving projectile right (slice) & left (hook)

Question 51

What is the magnus effect

Answer 51

creation of an additional magnus force on spinning projectile which deviates from the flight path

Question 52

What is a hook

Answer 52

type of sidespin used to deviate projectiles flight path to left

Question 53

What is a slice

Answer 53

type of sidespin used to deviate projectiles flight path to right

Question 54

Explain how topspin occurs in tennis

Answer 54

upper surface of ball rotates towards oncoming air flow -> oppoising motion, decreasing velocity of air flow -> creating high pressure zone

-lower surface of ball rotates in same direction as air flow, increasing velocity of air flow -> creating low pressure zone

-pressure gradient forms, additional magnus force is created downwards

-downward magnus force adds weight to projectile

-projectile dips in flight -> less time in air -> flight path shortens

Question 55

Name 3 reasons as to why spin is useful in table tennis and tennis

Answer 55

-gives ball stability in flight

-can confuse opposition

-topspin shortnes flight path -> allowing ball to still be hit hard but still land in court

Question 56

hook spin description

Question 57

slice spin dexciription